https://docs.google.com/document/d/16dP_SmSP8SuQbZ7p9eGoCwf1vwJKh7KPL7NAYv7j13o/edit
Calcium as a LENR catalyst??? On Mon, Jul 29, 2019 at 10:43 PM JonesBeene <jone...@pacbell.net> wrote: > Thanks Jeff – > > > > This could be important. Limelight – as old-fashioned as it may seem at > first - has long been claimed to have a number of optical properties which > look like they are related to hydrino creation. > > > > On a related topic, and looking at Fig.3 in the first cited paper, which > is the emission spectra of calcium sulfate, the peak is at 580 nm. > > > > Coincidentally (or not) the palladium optical anomaly where the metal > switches sharply from photon reflector to perfect absorber is at 590 nm. > That would only be relevant if calcium carbonate has its peak at about the > same value. > > > > There are a number of reasons to think the Mizuno breakthrough relates > more to Mills’ theory than to LENR. > > > > Jones > > > > > > *From: *Jeff Driscoll <jef...@gmail.com> > > > > and calcium oxide is a candoluminescent material where limelight is given > off when hydrogen is exposed to the material at high temperature: > > > > > http://zhydrogen.com/wp-content/uploads/2018/06/Candoluminescence-of-cave-gypsum.pdf > > > > > https://www.youtube.com/watch?v=EXl6H7G6BMU > > > > https://en.wikipedia.org/wiki/Limelight > > > > On Mon, Jul 29, 2019 at 9:26 PM Jones Beene <jone...@pacbell.net> wrote: > > For those who have not carefully followed Mills' work on dense hydrogen > (hydrino) - calcium is listed as a favored catalyst. This could be > important (or not) in the context of the recent Mizuno breakthrough ... > certainly it has not been mentioned before but perhaps it should be (at > least listed as a possibility) due to a few other related details. > > > > The Rydberg level for Ca is the fifth - 1/5 as it is inverted and notably > calcium is the one of the few for this level of shrinkage. There is > complementary catalysis with the other potential catalysts present, since > there is palladium - first level, oxygen/carbonate ion - 2nd level, nickel > 7th and 11th and now calcium in the middle - so that there is a deepening > progression which could set up a cascade of some kind. > > > > If one is not tied down to any particular M.O. or theory - then this > spread of catalysis values could be relevant in the context of Alan > Goldwater's new report on his early stage effort at replication where he > finds calcium: > > > > > https://docs.google.com/document/d/16dP_SmSP8SuQbZ7p9eGoCwf1vwJKh7KPL7NAYv7j13o/edit > > > > Really nice insight by Alan. > > > > > > > -- > > Jeff Driscoll > 617-290-1998 > > >